Optimizing blast furnace slag cements

ABSTRACT

A method and composition for cementing a well by combining water, blast furnace slag and a phosphate ion-containing compound to form a cement slurry, displacing the cement slurry into the well, and allowing the cement slurry to set.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention pertains to the optimization of methods and formulations for zonal isolation for vertical, deviated, and horizontal oil and gas wells using blast furnace slag cement.

2. Description of Prior Art

The general procedure of drilling an oil or gas well includes drilling a borehole using a drilling fluid. Subsequent to drilling the borehole, casing is run into the well and a cement slurry is placed in the annulus between the outside of the casing and the borehole wall. Typically, the cement slurry is placed in the annulus using a successive fluid displacement technique. In this technique, the cement is first pumped into the casing. Another fluid, often drilling fluid or water, is pumped behind the cement to space it out the bottom of the casing and up into the annulus between the casing and the borehole wall. The cement slurry is usually raised to a point above the uppermost section of the formations to be isolated and may be raised into the annulus between the casing string being cemented and a previously cemented casing.

Once placed, the purpose of the cement slurry is to harden in the annulus and provide an effective seal between the casing and the borehole. The hardened cement sheath prevents or inhibits communication of fluids between the various formations penetrated by the wellbore. Conditions providing zonal isolation of the cement is in contact with the casing and provides mechanical support and resistance to axial movement through the shear bond developed between the interfaces of cement and pipe and cement and formation.

Applicant's U.S. Pat. No. 5,058,679 dealt with an improvement in the bonding of the cement to the casing and borehole surfaces. This improvement was realized through the use of a cement comprising drilling fluid and blast furnace slag. This has proven to be an effective cementing technique and is rapidly gaining commercial acceptance. However, the formulation and design methodology for blast furnace slag cement and drilling fluid-blast furnace slag cements are presently not well defined. Requirements for slurry and hardened material properties are generally the same as Portland cement for a specific set of well conditions. The most effective way to formulate blast furnace slag cements or drilling fluid-blast furnace slag slurries and to obtain the desired properties is not completely understood by the art. Accordingly, the present invention is directed toward overcoming these and other problems in the art.

SUMMARY OF THE INVENTION

It is a primary purpose of the present invention to provide compositions and methods for optimizing the use of blast furnace slag cement and drilling fluid-blast furnace slag cements for cementing oil and gas wells.

A preferred embodiment of the invention comprises a composition and method for cementing a well by combining constituents comprising water and blast furnace slag having a particle size within the range of 2,000 cm² /g to 15,000 cm² /g, and an activator comprising a phosphate ion-containing compound, to form a cement slurry; displacing the cement slurry into the well; and allowing the cement slurry to set.

In yet another embodiment of the invention a composition and method are provided for cementing a well comprising combining constituents comprising water and blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g and an activator to form a cement slurry, adjusting the weight ratio of activator-to-slag to achieve optimum compressive strength of the cement, displacing the cement slurry into the well and allowing the cement slurry to set.

In yet another embodiment of the invention, a composition and method are provided for cementing a well comprising combining constituents comprising water and blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g and a multi-component activator to form a cement slurry, adjusting the ratio of activator components to provide at least one of the following: (a) optimum set of the cement slurry, (b) optimum compressive strength of the cement, (c) optimum early compressive strength development ratio of the cement slurry, and (d) optimum rheological properties for the cement slurry, displacing the cement slurry into the well and allowing the cement slurry to set.

A further embodiment of the invention comprises a composition and a method for cementing a well comprising combining constituents comprising water and blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g, an activator, and sufficient retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well; selecting a ratio of weight of activator to weight of retarder to provide the greatest early compressive strength development and the greatest final strength for a given slag concentration, displacing the cement slurry into the well and allowing the cement slurry to set.

The present invention also provides a composition and a method for cementing a well comprising combining constituents comprising water and blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g, an activator, and sufficient retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well; selecting the activator/retarder weight ratio at the static temperature of the well to provide substantially the greatest early compressive strength development and substantially the greatest final strength for a given slag concentration.

In another aspect, the present invention provides a composition and method for cementing a well comprising combining constituents comprising water and blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g, and an activator to form a cement slurry; adding a sulfide scavenging compound to the cement slurry, said scavenging compound being selected from the group consisting of zinc oxide and zinc carbonate; displacing the cement slurry into a well and allowing the cement slurry to set.

Other purposes, distinctions over the art, advantages and features of the invention will be apparent to one skilled in the art upon review of the following.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows the total impact of activator on set time of slag formulations, rate of early compressive strength development immediately after set time, and final or total compressive strength of the formulations.

FIG. 2 shows sodium carbonate as the preferred carbonate when the basic formulation is blast furnace slag plus 50% distilled water by weight of slag.

FIGS. 3-5 show the effects of the ratios of different components in the total activator on compressive strength, early compressive strength development rate and set time.

FIG. 6 shows that sodium hydroxide has greater impact on set time of the formulation while sodium carbonate has greater impact on the compressive strength of the formulation.

FIG. 7 shows ratios of components controlling set time, compressive strength and early compressive strength development rate.

FIG. 8 shows similarity of benefits from sodium oxalate and sodium citrate.

FIGS. 9-10 are comparisons of the combination of citrate with phosphate and citrate, phosphate and sodium hydroxide.

FIGS. 11-12 show the effect of component ratios when other activators were used.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The following preferred embodiments of the invention, together with the following Examples, explain the principles of the invention.

The present invention provides unique methods and formulations which are devised to provide optimum zonal isolation for vertical, deviated, and horizontal wells. The invention centers around the optimized solidification of oil or water-based muds in combination with blast furnace slag to compressive strengths well in excess of that required for casing support, zonal isolation, and borehole stability.

Water-based drilling fluids typically include water and several other additives such as viscosifiers, thinners, dissolved salts, solids from the drilled formations, solid weighting agents to increase the fluid density, formation stabilizers to inhibit deleterious interaction between the drilling fluid and geologic formations, and additives to improve the lubricity of the drilling fluid. The term "water-based" means that water is the continuous phase of the drilling fluid. The water for water-based drilling fluids can be fresh water, brackish water, brine, seawater or other water containing fluids.

Oil-based drilling fluids typically include oil, water, organophilic clay, primary and secondary emulsifiers and wetting agents. Oil may be diesel, mineral oil, vegetable oil, fish oil, synthetic oils (polyalphaolefins), and esters thereof.

Many different additives and dispersants have been utilized that provide the desired properties in drilling fluids. Exemplary of those additives are barium sulfate (barite), bentonite, low and medium yield clays, salt water clay, iron oxide, calcium carbonate, starch, carboxymethylcellulose, acrylonitrile, natural gum, molecularly dehydrated phosphate, tannin compounds, quebracho, mined lignins, lignosulfonate, mica, sugar cane fibers, and granular materials. Bentonite is an especially common additive which gives the drilling fluid a thixotropic or a gel structure. Bentonite is also a common additive which is added to the drilling fluids to control fluid loss; phosphate and lignosulfonate additives which deflocculate colloidal solids and thin the drilling fluids are also common.

Solidification of drilling fluid is accomplished by the addition of blast furnace slag along with additives for the control of setting time and rheological properties of the slag-treated fluid. The term "blast furnace slag" refers to the refuse from the melting of metals or reduction of ores in a furnace. Most notably, blast furnace slag is a by-product of the manufacture of steel in a blast furnace. In steel making, the blast furnace slag is discharged from the service as a molten stream at a temperature typically between 1400° C. and 1600° C. Rapid quenching of the slag results in its conversion into a material which has hydraulic properties. The rapid quenching of the slag converts it into a glassy state and it is generally recognized that the hydraulic quality of the slag depends upon the effectiveness of the process used to rapidly cool the slag and freeze it into the granulated, glassy state. The preferred blast furnace slag of the invention is a high glass content slag produced by quickly quenching the molten slag through intimate contact with large volumes of cool water. Slags produced by air quenching may be used in the invention provided they are determined to have cementitious properties. However, these are less desirable. The finest of the slag particles should be between about 2,000 cm² /g and 15,000 cm² /g, more preferably between 3,000 cm² /g and 9,000 cm² /g, most preferably between 4,000 cm² /g and 6,500 cm² /g. A commercially available blast furnace slag which fulfills the requirements of the invention is marketed under the trade name "NEWCEM" by the Blue Circle Atlantic Company. This slag is obtained from the Bethlehem Steel Corporation blast furnace at Sparrow's Point, Md.

Rheological properties of the slag treated drilling fluid can be modified through the use of many conventional chemical dispersants for water-based or oil-based drilling fluids. Examples of such compounds include lignosulfonates, naphthalene sulfonates, phenol sulfonates, phosphates, phosphonates, sulfonated styrene maleic anhydride, sulfonated toluene maleic anhydride, sulfonated styrene maleimide, polyacrylates, polymethacrylates, blends of polyacrylates and polymethacrylates, acrylamide-acrylic acid copolymers, or blends of any of these classes of materials provided they are chemically compatible to allow their mixing while retaining the ability to disperse particles in the drilling fluid.

Selecting General Types of Activators

Blast furnace slag is a latent hydraulic material. It must be activated to set in order to form a useful cement. Activation can be either thermal energy (heat) or chemical energy (chemical activation). If there is sufficient thermal energy (high temperature) no chemical activators may be required. However, at low temperatures, chemical activators are almost certainly required to optimize set time and compressive strength. In most cases, it is common and often desirable to use a combination of thermal and chemical activation to optimize the properties of the slag-containing cementitious mixture.

Alkali or bases, compounds which increase the pH of the liquid portion of a blast furnace slag/drilling fluid mixture or blast furnace slag cement slurry, are used as chemical activators. However, since thermal energy contributes to the total activation energy, the type of chemical activators and their amount can vary. Strong alkali are required at low temperatures where weak alkali can be used when the temperature is higher.

Components of the activator can be a mixture of alkali or alkali in combination of chelating, complexing or sequestering agents. It is desirable in cases where temperatures are low to use strong alkali-containing hydroxyl groups such as alkali earth metal hydroxides. These oxides include lithium hydroxide, sodium hydroxide, potassium hydroxide, calcium hydroxide, magnesium hydroxide, barium hydroxide, as examples. The more soluble alkali earth metal hydroxides are, in general, better activators at low temperature. It is believed that their higher solubility in water at low temperatures is the primary reason they are better low temperature activators. The most commonly applied alkali earth metal hydroxides at low temperature are sodium hydroxide, potassium hydroxide, lithium hydroxide and barium hydroxide. These alkali earth metal hydroxides have a greater effect on the set time of the slag-containing cementitious mixture. Concentrations range between 0.01 to 20% wt of slag, more preferably 0.1 to 16% wt of slag, even more preferably between 0.25 to 14% wt of slag, and most preferably 0.5 to 10% wt of slag.

It is also common to use a weaker alkali as part of the activator component, in particular, weaker alkali containing a carbonate or phosphate group. The carbonate ion in particular has a beneficial effect on the compressive strength development and overall compressive strength of the slag-containing mixture. Few anion species can replace carbonate as a part of the activator which significantly affects compressive strength. Alkali earth metal carbonates which are most commonly applied as a component in the total activator include lithium carbonate, sodium carbonate, potassium carbonate, calcium carbonate, magnesium carbonate, barium carbonate, sodium potassium carbonate, etc., as examples. Again, as with the alkali-containing hydroxyl groups, greater solubility provides greater effects. The most commonly applied carbonate-containing compounds used include sodium carbonate, potassium carbonate and sodium potassium carbonate. Typical concentrations are 0.25 to 25% wt of slag, more preferably 0.5 to 20% wt of slag, even more preferably 1.0 to 15% wt of slag, and most preferably 2 to 12% wt of slag.

The phosphate anion is an anionic chemical species which can contribute to compressive strength like the carbonate ion. However, the phosphate ion-containing compounds tend to retard the slag hydration much more than the carbonate. Basic phosphates such as sodium hexametaphosphate, sodium tripolyphosphate, tetrasodium polyphosphate, etc., have application in formulations to control set time and contribute to compressive strength development. Of these, sodium hexametaphosphate and sodium tripolyphosphate have shown the greatest potential. Typical concentrations are 0.001 to 15% wt of slag, more preferably 0.01 to 10% wt of slag, even more preferably 0.1 to 8% wt of slag, and most preferably 0.25 to 6% wt of slag.

The citrate ion also can contribute to compressive strength. Alkali earth metal salts of citric acid such as sodium citrate, calcium titrate, potassium citrate, etc., are examples. Of these, sodium or potassium citrate are most preferred.

Compounds containing phosphate and citrate have an advantage over carbonate or hydroxyl-containing compounds in rheological properties of the slurry. Phosphate or citrate-containing compounds are effective dispersants for slag and clays in drilling fluid formulations. Thus, less dilution may be required for drilling fluid-blast furnace slurries or better rheological properties may be obtained.

Other components of the activator include a chelating, complexing or sequestering agent. These types of compounds include the phosphate and citrate ion-containing compound previously described. Other compounds such as ethylenediamine tetraacetic acid and its salts, phosphonic acids and their salts, glutamic acid and its salts, gluconic acid and its salts, some amines, phosphinic acids and their salts, aminophosphinic acids and their salts, lactic acid and its salts, aspartic acid and its salts, tartaric acid and its salts, etc. It is most desirable to use salts since the acid forms counteract the alkali added for chemical activation. Highly soluble salts are preferred. Sodium and potassium salts are usually quite soluble. Many other types of chelating, complexing or sequestering agents are known and many are listed in the book Organic Sequestering Agents by Stanley Chaberek and Arthur E. Martell, published by John Wiley & Sons, New York. Concentrations typically range between 0.001 to 10% wt of slag, more preferably 0.01 to 8% wt of slag and most preferably 0.05 to 5% wt of slag.

Chemical compounds which are chelating, complexing, or sequestering agents for alkali earth metals and transition metals through iron in the Periodic Table of Elements have been found most suitable as components in the chemical activator mixture. Concentrations typically range between 0.001 to 10% wt of slag, more preferably 0.01 to 8% wt of slag and most preferably 0.05 to 5% wt of slag. Chelating, complexing or sequestering compounds with log (base 10) values for the equilibrium stability constants for complexed calcium between 2 and 5 have been most effective in improving strength and dispersing the slag with lowest effect on set time. A broad range for these log values is 0.5 to 11. The lower values tend to be stronger retarders while the higher values (above about 6) have less retarding effect but do not show an improvement in compressive strength development. In general, small amounts of these materials are used. Concentrations typically range from 0.001 to 8% wt of slag, preferably 0.01 to 6% wt of slag, and most preferably 0.05 to 5% wt of slag.

Selecting Total Activator Concentration

There is an optimum amount of activator which provides the maximum compressive strength for a given concentration of slag. The optimum total activator concentration is based upon the weight of slag used in the formulation. Therefore, the optimum weight ratio of total activator to slag is selected. This weight ratio varies with temperature because thermal energy (heat or temperature which is a measure of heat) is an activator for slag. The optimum weight ratio of total activator to slag decreases with temperature. For example, the optimum ratio is about 6 percent or 0.06 percent (activator weight/slag weight) at 125° F. The optimum may be about 8 percent (0.08) at 100° F., 12 percent (0.12) at 80° F., 2.5 percent (0.025) at 175° F. These optimum ratios also may vary with the compounds used as the activators. The ratios cited above are exemplary of mixtures of sodium hydroxide and sodium carbonate. Ranges for total activator concentrations are: 0.01 to 20% wt of slag, preferably 0.1 to 18% wt of slag, even more preferably 0.25 to 14% wt of slag, and most preferably 0.5 to 10% wt of slag.

Selecting the Ratio of Components in the Total Activator

Within the total activator concentration, there is a ratio of the individual components which provide optimum set time or optimum compressive strength or optimum early compressive strength development rate or optimum rheological properties for the cementing operation. There is also a combination of activators which will produce optimum properties for all these variables for a specific cementing operation.

The total activator concentration may be made up of different concentrations of different chemical components.

Selecting the Retarder

Once the total amount of activator and ratio of activator components has been selected which will optimize compressive strength and compressive strength development, a retarder is usually required to provide adequate fluidity time (sufficiently long set time) in order to place the cement in the well. Retarders are often added in a concentration of 0.001% to 12% by weight of slag, preferably 0.01 to 8%, and more preferably 0.05% to 5% wt of slag.

Retarders are of two types: complexing agents and salts of transition metals with atomic numbers above iron or nickel in the periodic chart. In particular, copper, zinc and aluminum salts can be effective retarders for slag hydration.

Complexing agents such as lignosulfonates and sulfonated lignins, and sulfonated Kraft lignins, lignin amines, etc., can be effective retarders. These are common retarders for Portland cements.

The most desirable retarders are low molecular weight complexing agents because they also contribute to improved compressive strength and early compressive strength development rate. Sodium glucoheptonate, sodium gluconate, sodium citrate, etc. can improve strength in combination with the activators in the formulation.

There is a ratio of activator to retarder which provides the greatest early compressive strength development and final strength for a given slag concentration. This ratio depends upon the strength of the retarders and activators used. In general, a combination of activators and retarders which will produce a set time less than about 10 hours, more preferably less than about 8 hours, and most preferably between 3 and 6 hours at the static temperature of the well will provide a high rate of early compressive strength development after setting and high final strength for the selected slag concentration.

Dispersion

Given two formulations with optimized ratios of slag and activators, activator components and activator-retarder ratio, the formulation which is more dispersed will generally have better compressive strength development after setting. Many of the complexing, sequestering or chelating agents mentioned earlier in this text are good dispersants for slag and drilling fluids containing clays.

Control of Sulfide Odors

Blast furnace slags contain some sulfur as residue from the iron or steel making process. This sulfur may be in forms which can produce sulfide species. Hydrogen sulfide may form although this is not expected at the alkaline pH of most activated slag cements.

However, sulfide scavenging compounds may be included as part of the activator or retarder on the slag-containing cementitious material. Additives such as zinc oxide, zinc carbonate are known scavengers for sulfide. Inclusion of one or more of these scavengers may prevent formation of hydrogen sulfide if a set slag-containing cement is drilled out or otherwise comes into contact with a low pH fluid which would favor formation of hydrogen sulfide.

EXAMPLES

The data presented in FIG. 1 is based on the following: Test Temperature: 125° F. (52° C.); Base Formulation: "NEWCEM" blast furnace slag+50% distilled water by wt of slag--(a) total activator concentration is percent by weight of slag; (b) the weight ratio of sodium hydroxide to sodium carbonate is 1:3 for all total activator concentrations; hence, 1% total activator=0.25% sodium hydroxide+0.75% sodium carbonate (by wt of slag); 2% total activator=0.5% sodium hydroxide+0.75% sodium carbonate (by wt of slag); 4% total activator=1% sodium hydroxide+3% sodium carbonate (by weight of slag).

FIG. 1 shows the impact of total activator on the:

a) set time of slag formulations,

b) rate of early compressive strength development immediately after set time, and

c) final or total compressive strength of the formulations.

A decrease in set time is seen along the X-axis as the lines showing compressive strength begin to move upward off of the O compressive strength line which is represented as the horizontal line of the X-axis. No activator produced a set time of about 2.5 hours. Increasing the activator concentration to 4% or 6% by weight of slag reduced the set time to less than 1 hour.

The rate of early compressive strength development is directly impacted by the activator concentration. The slope of the line from the set time until the strength reaches a plateau, wherein the rate of strength change with time has decreased to a near steady-state rate, is affected by the activator concentration. The slope is gradual without activator and becomes near vertical at 4% to 6% total activator at this temperature. It is desirable to have rapid early compressive strength development in many cementing operations. Slopes as compared in the Table 1 labeled Example A-2.

The final compressive strength of each formulation increases with the total activator concentration. It is important to remember that the only thing changed is the total activator concentration. The amount of slag in each formulation is constant.

Also, there is an upper limit to the total activator concentration. This limit is the dilution effect limit and solubility limit of the activators.

Base Formulation: "NEWCEM" Blast Furnace Slag+50% Distilled Water (by weight of slag) Test temperature: 125° F. (52° C.)

a) Total Activator concentration is percent by weight of Slag.

b) The weight ratio of sodium hydroxide to sodium carbonate is 1:3 for all total activator concentrations, hence:

1% total activator=0.25% sodium hydroxide+0.75% sodium carbonate (by weight of slag)

2% total activator=0.5% sodium hydroxide+1.5% sodium carbonate (by weight of slag)

4% total activator=1% sodium hydroxide+3% sodium carbonate (by weight of slag).

                                      TABLE 1                                      __________________________________________________________________________     Set Time and Compressive Strength Data                                                                              Compressive                                       Total                                                                               Test      Equation for Line Between                                                                    Strength                                                                              Final                              Additives and                                                                          Activator                                                                           Duration                                                                            Set Time                                                                            50 psi and 500 psi                                                                           14 hrs after                                                                          Strength                           Concentration                                                                          % bwos                                                                              Hours                                                                               Hours                                                                               Slope  Intercept                                                                             Set Time                                                                              psi                                __________________________________________________________________________     None    0    18   2.72 78.44  -128.72                                                                                723    740                               None    1    18   1.68 507.51 -844.57                                                                               1039   1068                               None    2    18   1.4  741.96 -1046.07                                                                              1611   1677                               None    4    18   0.6  1024.55                                                                               -647.00                                                                               2836   2966                               None    6    18   0.5  794.33 -417.14                                                                               3824   3924                               __________________________________________________________________________      Base Formulation: "NEWCEM" Blast Furnace Slag + 50% Distilled Water (by w      of slag)                                                                       Test Temperature: 125° F. (52° C.)                         

FIG. 2 shows sodium carbonate as the preferred carbonate. The basic formulation is: "NEWCEM" blast furnace slag +50% distilled water (by weight of slag)+4% total activator (by weight of slag). Test temperature: 125° F. (52° C.).

FIGS. 3-6 and Tables 2 and 3 show the effects of the ratios of different components in the total activator on:

1) 24 hour compressive strength (FIG. 3)

2) early compressive strength development rate (FIG. 4)

3) set time (FIG. 5)

Each formulation contained 4% total activator. This total activator could be composed entirely of sodium hydroxide or entirely sodium carbonate or any weight ratio in between of these two components. The X-axis of these plots shows the amount of sodium carbonate present in the total activator. Hence, at 0 on the X-axis there is no sodium carbonate in the total activator; the total activator is 4% sodium hydroxide. At 4 on the X-axis only sodium carbonate is used as the total component of the activator; no sodium hydroxide is present in the total activator. At 2 on the X-axis, the total activator concentration of 4% (by weight of slag) is made up of 2% sodium hydroxide and 2% sodium carbonate.

This data in FIG. 3 is based on the following: Base Formulation: "NEWCEM" blast furnace slag+50% distilled water (by wt of slag). This data (FIG. 3) shows that higher compressive strengths are obtained (slag concentration is constant for all tests) when the sodium carbonate concentration is slightly in excess of the sodium hydroxide concentration in the total amount of activator.

A small amount of sodium carbonate (FIG. 4) in the total activator concentration is beneficial for improving the early compressive strength development rate.

A small amount of sodium hydroxide (FIG. 5) in the total activator concentration is beneficial for reducing the set time of the slag cement mixture.

This data suggests that sodium hydroxide has greater impact on the set time of the formulation while sodium carbonate has greater impact on the compressive strength of the formulation. This is more clear in FIG. 6.

                                      TABLE 2                                      __________________________________________________________________________     Effects of Ratios of Different Components in Total Activator                   on Compressive Strength Development Rate and Set Time                                       Weight                                                                               Molar           Elapsed                                                  Ratio of                                                                             Ratio of        Time in                                                  Sodium                                                                               Sodium                                                                               Elapsed Time in                                                                          Minutes                                     Sodium Sodium                                                                               Hydroxide                                                                            Hydroxide                                                                            Minutes.sup.1                                                                            Between                                                                              Compressive Strength, psi, after                                               indicated                             Hydroxide                                                                             Carbonate                                                                            to Sodium                                                                            to Sodium                                                                            to Reach  50 psi and                                                                           elapsed time                          % bwos*                                                                               % bwos*                                                                              Carbonate                                                                            Carbonate                                                                            50 psi                                                                              500 psi                                                                             500 psi.sup.2                                                                        2 hrs                                                                              4 hrs                                                                               8 hrs                                                                              12                                                                                 24                   __________________________________________________________________________                                                               hrs                  4      0       4 to 0    13   118  .sup. 105.sup.5                                                                      516  907 1272                                                                               1379                                                                               1536                 3.27   0.73  4.5 to 1                                                                             11.87 to 1                                                                           17   52   35    885 1068 1236                                                                               1339                                                                               1529                 3.2    0.8     4 to 1                                                                             10.6 to 1                                                                            19   51   32    882 1038 1204                                                                               1306                                                                               1514                 3.12   0.88  3.5 to 1                                                                              9.4 to 1                                                                            17   52   35    856  994 1136                                                                               1247                                                                               1445                 3      1       3 to 1                                                                             7.95 to 1                                                                            17   48   32    823  919 1038                                                                               1126                                                                               1324                 2.85   1.15  2.5 to 1                                                                             6.57 to 1                                                                            18   50   32    961 1128 1271                                                                               1376                                                                               1594                 2.66   1.34    2 to 1                                                                             5.26 to 1                                                                            18   49   31    966 1148 1310                                                                               1419                                                                               1642                 2.4    1.6   1.5 to 1                                                                             3.97 to 1                                                                            17   46   29    967 1136 1298                                                                               1407                                                                               1609                 2      2       1 to 1                                                                             2.65 to 1                                                                            16   42   26    1082                                                                               1269 1469                                                                               1592                                                                               1820                 2      2       1 to 1    15   36   21    997 1138 1315                                                                               1424                                                                               1626                 1.6    2.4   0.67 to 1                                                                            1.77 to 1                                                                            20   49   29    .sup. 1374.sup.4                                                                   .sup. 1657.sup.4                                                                    .sup. 1921.sup.4                                                                   .sup. 2084.sup.4                                                                   .sup. 2356.sup.4     1.34   2.66  0.5 to 1                                                                             1.33 to 1                                                                            25   56   31    1645                                                                               2011 2366                                                                               2534                                                                               2830                 1.15   2.85  0.4 to 1                                                                             1.07 to 1                                                                            37   75   38    1341                                                                               1792 2132                                                                               2344                                                                               2651                 1      3     .33 to 1                                                                             0.88 to 1                                                                            42   74   32    1466                                                                               1861 2216                                                                               2438                                                                               2758                 0.88   3.12  .28 to 1                                                                             0.75 to 1                                                                            43   64   21    1534                                                                               1870 2195                                                                               2381                                                                               2656                 0.8    3.2   .25 to 1                                                                             0.66 to 1                                                                            .sup. 79.sup.3                                                                      102  23    1121                                                                               1806 2180                                                                               2399                                                                               2752                 0.73   3.27  .22 to 1                                                                             0.59 to 1                                                                            .sup. 83.sup.3                                                                      107  24    995 1830 2241                                                                               2465                                                                               2797                 0      4       0 to 4                                                                             0.00  .sup. 134.sup.3                                                                     170  36     33 1566 2011                                                                               2237                                                                               2631                 __________________________________________________________________________      *By weight of slag                                                             Total Activator concentration was 4% by weight of slag for all tests.          Sample Formulation: "NEWCEM" Blast Furnace Slag + 50% fresh water (bwos)       4% Total Activator (bwos)                                                      Test Temperature: 125° F.                                               .sup.1 This is set time.                                                       .sup.2 Early compressive strength development rate                             .sup.3 Sodium hydroxide in small quantity helped reduce this set time          .sup.4 Higher strength when carbonate in excess of hydroxide                   .sup.5 Early compressive strength development rate increased due to            carbonate                                                                

                                      TABLE 3                                      __________________________________________________________________________     Effects of Ratios of Different Components in Total Activator                   on Compressive Strength                                                                     Weight                                                                               Molar           Elapsed                                                  Ratio of                                                                             Ratio of        Time in                                                  Sodium                                                                               Sodium                                                                               Elapsed Time in                                                                          Minutes                                     Sodium Sodium                                                                               Hydroxide                                                                            Hydroxide                                                                            Minutes.sup.1                                                                            Between                                                                              Compressive Strength, psi, after                                               indicated                             Hydroxide                                                                             Carbonate                                                                            to Sodium                                                                            to Sodium                                                                            to Reach  50 psi and                                                                           elapsed time                          % bwos*                                                                               % bwos*                                                                              Carbonate                                                                            Carbonate                                                                            50 psi                                                                              500 psi                                                                             500 psi.sup.2                                                                        2 hrs                                                                              4 hrs                                                                               8 hrs                                                                              12                                                                                 24                   __________________________________________________________________________                                                               hrs                  4      0       4 to 0    12   51   .sup. 39.sup.5                                                                        998                                                                               1097 1190                                                                               1255                                                                               1379                 3.27   0.73  4.5 to 1                                                                             11.87 to 1                                                                           12   30   18    1027                                                                               1178 1348                                                                               1463                                                                               1699                 3.2    0.8     4 to 1                                                                             10.6 to 1                                                                             9   27   18     991                                                                               1122 1287                                                                               1397                                                                               1623                 3.12   0.88  3.5 to 1                                                                              9.4 to 1                                                                            10   28   18     846                                                                                955 1092                                                                               1200                                                                               1389                 3      1       3 to 1                                                                             7.95 to 1                                                                            12   32   20     911                                                                               1027 1174                                                                               1288                                                                               1511                 2.85   1.15  2.5 to 1                                                                             6.57 to 1                                                                            11   29   18    1049                                                                               1152 1317                                                                               1427                                                                               1676                 2.66   1.34    2 to 1                                                                             5.26 to 1                                                                            10   25   15    1067                                                                               1173 1342                                                                               1454                                                                               1733                 2.4    1.6   1.5 to 1                                                                             3.97 to 1                                                                             9   25   16    1042                                                                               1130 11275                                                                              1382                                                                               1603                 2      2       1 to 1                                                                             2.65 to 1                                                                            10   22   12    1078                                                                               1182 1331                                                                               1422                                                                               1645                 1.6    2.4   0.67 to 1                                                                            1.77 to 1                                                                            12   25   13    .sup. 1657.sup.4                                                                   .sup. 1870.sup.4                                                                    .sup. 2055.sup.4                                                                   .sup. 2200.sup.4                                                                   .sup. 2455.sup.4     1.34   2.66  0.5 to 1                                                                             1.33 to 1                                                                            16   32   16    1953                                                                               2237 2495                                                                               2637                                                                               2907                 1.15   2.85  0.4 to 1                                                                             1.07 to 1                                                                            19   34   15    1993                                                                               2280 2543                                                                               2686                                                                               2920                 1      3     .33 to 1                                                                             0.88 to 1                                                                            21   32   11    1864                                                                               2131 2343                                                                               2441                                                                               2650                 0.88   3.12  .28 to 1                                                                             0.75 to 1                                                                            21   28    9    1937                                                                               2186 2405                                                                               2505                                                                               2683                 0.8    3.2   .25 to 1                                                                             0.66 to 1                                                                            .sup. 26.sup.3                                                                      35    9    2065                                                                               2399 2641                                                                               2792                                                                               2951                 0.73   3.27  .22 to 1                                                                             0.59 to 1                                                                            .sup. 31.sup.3                                                                      40    9    1980                                                                               2298 2565                                                                               2673                                                                               2907                 0      4       0 to 4                                                                             0.00  .sup. 44.sup.3                                                                      58   14    1593                                                                               1888 2127                                                                               2274                                                                               2465                 __________________________________________________________________________      *By weight of slag                                                             Total Activator concentration was 4% by weight of slag for all tests.          Sample Formulation: "NEWCEM" Blast Furnace Slag + 50% fresh water (bwos)       4% Total Activator (bwos)                                                      Test Temperature: 175° F.                                         

FIG. 7 and Table 4 show sodium citrate as a viable replacement for sodium hydroxide. Combinations of sodium citrate, sodium carbonate and sodium hydroxide can be made with improved properties. The data in FIG. 7 is based on the following: Base Formulation: "NEWCEM" blast furnace slag+50% distilled water (by wt of slag)+4% total activator (by wt of slag).

FIG. 7 shows ratios of components are still important to controlling set time, compressive strength and early compressive strength development rate.

Replacing sodium hydroxide with sodium citrate improved total compressive strength while maintaining a high early compressive strength development rate.

Table 4 shows incorporation of sodium hydroxide to change the set time and early compressive strength development rate.

                                      TABLE 4                                      __________________________________________________________________________     Incorporation of Sodium Hydroxide to Change                                    Set Time and Early Compressive Strength Development Rate                                      0.5% Sodium Hydroxide                                                                      0.5% Sodium Hydroxide                                                                      1% Sodium Hydroxide                     Time                                                                               1% Sodium Citrate                                                                         0.5% Sodium Citrate                                                                        1% Sodium Citrate                                                                          1% Sodium Citrate                       Hours                                                                              3% Sodium Carbonate                                                                       3% Sodium Carbonate                                                                        2.5% Sodium Carbonate                                                                      2% Sodium Carbonate                     __________________________________________________________________________     0     0          0           0           0                                     0.8  18         18          15          .sup. 90.sup.4                         1.07                                                                                18         18          17          .sup. 263.sup.4                        1.33                                                                                16         28          .sup. 46.sup.3                                                                             .sup. 502.sup.4                        1.6  18         .sup. 92.sup.2                                                                             .sup. 206.sup.3                                                                            718                                    2.04                                                                                .sup. 50.sup.1                                                                            .sup. 620.sup.2                                                                            791         988                                    2.4  .sup. 188.sup.1                                                                          1116        1170        1172                                    3.2  934       1584        1621        1466                                    4   1468       1782        1849        1696                                    4.8 1762       1930        2003        1836                                    5.6 1933       2035        2113        1937                                    6.4 2038       2146        2199        2017                                    7.2 2149       2234        2290        2100                                    8   2207       2326        2353        2158                                    12  2526       2628        2660        2372                                    16  2704       2816        2811        2505                                    20  2857       2935        2970        2647                                    24  2978       3059        3054        2721                                    __________________________________________________________________________      .sup.1,2,3 Show fast early compressive strength development                    .sup.4 Shows slower early compressive strength development.              

                                      TABLE 5                                      __________________________________________________________________________     Evaluation of Phosphates to Replace Sodium Hydroxide in Total Activator             1% Sodium                                                                            1% Calcium                                                                            1% Trisodium                                                                           1% Sodium                                                                              1% Sodium                                                                               1% Sodium  1% Tetrasodium                Hydroxide                                                                            Phosphate                                                                             Phosphate                                                                              Pyrophosphate                                                                          Tripolyphosphate                                                                        Hexametaphosphate                                                                         Pyrrophospate            Time 3% Sodium                                                                            3% Sodium                                                                             3% Sodium                                                                              3% Sodium                                                                              3% Sodium                                                                               3% Sodium  3% Sodium                Hours                                                                               Carbonate.sup.1)                                                                     Carbonate.sup.2)                                                                      Carbonate.sup.3)                                                                       Carbonate.sup.4)                                                                       Carbonate.sup.5)                                                                        Carbonate.sup.7)                                                                          Carbonate.sup.8)         __________________________________________________________________________     0    0     0      0       0       0        0          0                        0.5333333                                                                           13    22     20      22      18       11         18                       1.066667                                                                            355   25     23      20      20       13         16                       1.6  1207  25     23      22      20       15         16                       2.133333                                                                            1488  60     25      22      18       17         16                       2.666667                                                                            1633  440    0       22      16       17         15                       3.2  1721  1024   0       22      18       19         16                       3.733333                                                                            1815  1288   0       22      18       19         15                       4.266667                                                                            1889  1409   25      22      18       21         15                       4.8  1940  1502   531     22      18       21         15                       6.4  2103  1644   1577    26      18       21         16                       8    2219  1754   1906    26      20       23         16                       9.6  2311  1848   2069    26      20       23         16                       11.2 2408  1922   2216    30      20       25         16                       12.8 2474  1999   2341    172     18       25         13                       14.4 2508  2053   2407    786     16       23         11                       16   2578  2107   2544    1373    34       21         58                       17.6 2613  2136   2616    1626    155      31         359                      19.2 2650  2194   2690    1806    506      103        968                      20.8 2686  2222   2690    1955    931      393        1303                     24   2761  2283   2805    2176    1563     1368       1714                     32   2880         3010            2334     2418       2295                     40   2960         3141            .sup.6) 2593                                                                            .sup.6) 2849                                                                              2593                     48   3044         3233                                                         56   3088         3325                                                         64   3131         3374                                                         __________________________________________________________________________      .sup.1) "Control                                                               .sup.2) Lower compressive strength than "Control                               .sup.3) Set time delayed. Slightly higher comp. strength than "Control".       .sup.4) Set time delayed. Lower comp. strength than "control" at 24 hrs.       .sup.5) Set time delayed. Lower comp. strength than "control" at 24 hrs        .sup.6) Strength increasing, approaching "control                              .sup.7) Set time delayed. Lower comp. strength than "control" at 24 hrs        .sup.8) Set time delayed. Lower comp. strength than "control" at 24 hrs  

                                      TABLE 6                                      __________________________________________________________________________     Evaluation of Phosphates to Replace Sodium Carbonate in Total Activator            1% Sodium                                                                            1% Sodium                                                                             1% Sodium                                                                              1% Sodium                                                                               1% Sodium 1% Sodium 1% Sodium                    Hydroxide                                                                            Hydroxide                                                                             Hydroxide                                                                              Hydroxide                                                                               Hydroxide Hydroxide Hydroxide                Time                                                                               3% Sodium                                                                            3% Calcium                                                                            3% Trisodium                                                                           3% Sodium                                                                               3% Sodium 3% Sodium Hexa-                                                                          3% Tetrasodium           Hours                                                                              Carbonate.sup.1)                                                                     Phosphate.sup.2)                                                                      Phosphate.sup.3)                                                                       Pyrrophosphate.sup.4)                                                                   Tripolyphosphate.sup.5)                                                                  metaphosphate.sup.6)                                                                     Pyrrophosphate.sup.7                                                           )                        __________________________________________________________________________     0   0     0      0       0        0         0         0                        0.5 13    40     9       19       13        14        17                       1.07                                                                               355   208    11      21       19        12        111                      1.6 1207  330    16      42       24        17        467                      2.13                                                                               1488  407    17      323      30        26        681                      2.67                                                                               1633  463    67      551      38        33        866                      3.2 1721  499    113     751      42        37        1020                     3.73                                                                               1815  538    452     943      46        41        1143                     4.27                                                                               1889  566    921     1097     49        43        1202                     4.8 1940  587    1331    1199     51        45        1265                     6.4 2103  617    1899    1344     263       51        1382                     8   2219  673    2128    1451     1450      53        1473                     9.6 2311  716    2297    1527     1934      55        1530                     11.2                                                                               2408  742    2419    1608     2180      59        1590                     12.8                                                                               2474  780    2516    1650     2362      64        1653                     14.4                                                                               2508  809    2616    1715     2493      117       1696                     16  2578  829    2721    1760     2632      574       1741                     17.6                                                                               2613  849    2794    1806     2705      1303      1763                     19.2                                                                               2650  870    2869    1830     2820      1823      1809                     20.8                                                                               2686  892    2832    1878     2858      2079      1833                     24  2761  925    2947    1928     3021      2375      1906                     32  2880         3152    2059     3239      2792      2008                     40  2960         3239    2170     3378      .sup.8) 3076                                                                             2116                     48  3044         3375    2258     3526                2173                     56  3088         3420    2319     3626                                         64  3131         3467    2382     3733                                         __________________________________________________________________________      .sup.1) "Control                                                               .sup.2) Lower comp. strength than "control                                     .sup.3) Higher comp. strength than control, but longer set time.               .sup.4) Lower comp. strength than control                                      .sup.5),6),7) Longer set time, higher comp. strength                           .sup.8) Higher stength than control @ 40 hrs                             

                                      TABLE 7                                      __________________________________________________________________________     Combination of Phosphate (Sodium Tripolyphosphate),                            Sodium Carbonate and Sodium Hydroxide to Vary Set Time and Strength            (Total and Early Compressive Strength Development Rate                             0.5% Sodium 1% Sodium                                                          Tripolyphosphate                                                                           Tripolyphosphate                                                                           3% Sodium   1% Sodium   1% Sodium                  Time                                                                               0.5% Sodium Hydroxide                                                                      1% Sodium Hydroxide                                                                        Tripolyphosphate                                                                           Tripolyphospate                                                                            Hydroxide                  Hours                                                                              3% Sodium Carbonate                                                                        2% Sodium Carbonate                                                                        1% Sodium Hydroxide                                                                        3% Sodium Carbonate                                                                        3% Sodium                  __________________________________________________________________________                                                         Carbonate                  0   0           0           0           0           0                          0.53                                                                               18          16          13          18          13                         1.07                                                                               19          20          19          20          355                        1.6 19          22          24          20          1207                       2.13                                                                               19          24          30          18          1488                       2.67                                                                               21          24          38          16          1633                       3.2 21          26          42          18          1721                       3.73                                                                               21          26          46          18          1815                       4.27                                                                               21          28          49          18          1889                       4.8 21          28          51          18          1940                       6.4 23          30          263         18          2103                       8   23          65          1450        20          2219                       9.6 23          884         1934        20          2311                       11.2                                                                               23          1465        2180        20          2408                       12.8                                                                               61          1830        2362        18          2474                       14.4                                                                               352         2035        2493        16          2508                       16  875         2204        2632        34          2578                       24  1984        2701        3021        1563        2761                       __________________________________________________________________________

    TABLE 8       - Effect of Cation of Sulfate Salts on Set Time and Compressive      Strength of Blast Furnace Slag Cement       Base Formulation: NEWCEM Blast Furnace Slag mixed with 50% Distilled      Water       (by weight of the slag) plus indicated activator mixtures       Test Temperature: 125 F. (52 C.)       Curing Pressure: 3000 psi       Compressive Strength, psi, of Formulations Containing the Indicated      Activators        1% Sodium 1% Sodium 1% Sodium 1% Sodium 1% Sodium 1% Sodium 1% Sodium      1% Sodium 1% Sodium 1% Sodium 1% Sodium 1% Sodium       Elapsed Hydroxide Hydroxide Hydroxide Hydroxide Hydroxide Hydroxide      Hydroxide Hydroxide Hydroxide Hydroxide Hydroxide Hydroxide       Time 3% Sodium 3% Sodium 3% Magnesium 3% Calcium 3% Ferrous 3% Ferric      3% Cobalt 3% Nickel 3% Cupric 3% Zinc 3% Aluminum 3% Ammonium       Hours Carbonate Sulfate Sulfate Sulfate Sulfate Sulfate Sulfate Sulfate      Sulfate Sulfate Sulfate Sulfate       0 0 0 0 0 0 0 0 0 0 0 0 0       1.07 281 150 20 34 13 13 30 121 12 19 17 13       2.13 1505 374 28 109 193 11 332 473 10 17 16 13       4.09 1886 576 275 457       8 2216 703 948 1002 742 419 696 899 10 17 19 95       12.1 2438 770 1294 1053       16 2575 821 1506 1093 968 1510 872 1100 9 13 17 1141       17.6 2610 843 1564 1093 980 1589 894 1129 9 11 17 1261       19.2 2647 854 1604 1106 1018 1695 928 1157 9 11 17 1342       20.8 2683 876 1667 1120 1044 1762 952 1187 8 11 17 1430       22.4 2721 888 1710 1134 1071 1832 976 1217 8 14 17 1504       24 2758 899 1744 1134 1084 1880 964 1202 8 20 17 1562       25.6  911 1800  1098 1930 1001 1233 8 29 17 1602       27.2  935 1823  1127 1981 1026 1249 8 40 17 1665       28.8  947 1871  1141 2034 1039 1265 8 54 17 1708       30.4  959 1895  1155 2061 1052 1265 8 67 17 1730       32  959 1920  1170 2088 1066 1280 8 82 17 1775       33.6  972 1945  1185 2144 1079 1297 8 99 17 1821       35.2  984 1971  1200 2172 1092 1313 8 114 17 1845       36.8  997 1996  1215 2202 1106 1330 8 129 17 1869       38.4  1010 2022  1231 2202 1106 1347 8 141 17 1893       40  1010 2022  1247 2230 1120 1347 8 152 17 1918       41.6  1023 2049  1247 2260 1135 1364 8 163 17 1943       43.2     1263 2291 1149 1364 8 171 17 1969       44.8     1278 2291 1149 1382 8 177 17 1994       46.4     1278 2321 1163 1382 9 186 17 1994       48     1295 2352 1178 1400 10 189 17 2020       56     1345 2416 1208 1435 323 207 17 2101       64     1380 2482 1255 1473 1084 217 17 2157       72       1286 1511 1541  29       80       1319 1530 1820  16       88       1353 1570 1993  16       Calcium Sulfate = CaSo.sub.4.2H.sub.2 O Nickel Sulfate =       NiSo.sub.4.6H.sub.2       O                                                    Ferrous Sulfate =      FeSo4.7H.sub.20 Zinc Sulfate = ZnSo.sub.4.7H.sub.2       O                      Ferric Sulfate = Fe.sub.2       (So.sub.4).sub.3.H.sub.2 O Aluminum Sulfate = Al.sub.2       (So.sub.4).sub.3.16H.sub.2       O                                             Cobalt Sulfate =       CoSo.sub.4.7H.sub.2       O

                                      TABLE 9                                      __________________________________________________________________________     Set Time and Compressive Strength Data                                         Comparisons of Activator: Retarder Ratio with Different Retarder Types         and Strengths                                                                               Total                                                                               Test       Equation for Line Between                         Additives    Activator                                                                           Duration                                                                            Set Time                                                                             50 psi and 500 psi                                                                           Compressive Strength                                                                       Final Strength          and Concentration                                                                           % bwos                                                                              hours                                                                               hours Slope  Intercept                                                                             14 hours after Set                                                                         psie                    __________________________________________________________________________     None         0    18      2.72                                                                              78.44  -128.72                                                                               723         740                     None         1    18      1.68                                                                              507.51 -844.57                                                                               1039        1068                    None         2    18      1.4                                                                               741.96 -1046.07                                                                              1611        1677                    None         4    18      0.6                                                                               1024.55                                                                               -647.00                                                                               2836        2966                    None         6    18      0.5                                                                               794.33 -417.14                                                                               3824        3924                    0.1% "REAX" 100 M                                                                           0    18      3.78                                                                              113.04 -470.89                                                                               867         869                     0.1% "REAX" 100 M                                                                           1    18      1.93                                                                              574.26 -1109.86                                                                              1153        1163                    0.1% "REAX" 100 M                                                                           2    18      1.48                                                                              877.10 -1311.57                                                                              1707        1778                    0.1% "REAX" 100 M                                                                           4    18      0.65                                                                              1316.57                                                                               -931.80                                                                               2941        3083                    0.1% "REAX" 100 M.sup.1)                                                                    6    18   .sup.3) 60:1                                                                      0.52                                                                              976.74 -519.82                                                                               3498        3548                    0,2% "REAX" 100 M                                                                           0    22.5    6.15                                                                              130.57 -768.22                                                                               996         1060                    0.33% "REAX" 100 M                                                                          0    18      14.63                                                                             135.26 -1971.55                                                                              795         568                     0.33% "REAX" 100 M                                                                          1    18      2.97                                                                              527.32 -1561.04                                                                              1278        1294                    0.33% "REAX" 100 M                                                                          2    18      2.12                                                                              732.72 -1558.23                                                                              1655        1714                    0.33% "REAX" 100 M                                                                          4    18   .sup.3) 12.1                                                                      0.75                                                                              1652.63                                                                               -1304.50                                                                              3032        3113                    0.33% "REAX" 100 M                                                                          6    18   .sup.3) 18.2                                                                      0.6                                                                               1455.75                                                                               -768.60                                                                               3504        3554                    0.1% "SEQLENE 540"                                                                          0    66      34.2                                                                              78.68  -1674.31                                                                              939         1365                    0.1% "SEQLENE 540"                                                                          1    66      5.78                                                                              434.89 -2502.49                                                                              1248        1644                    0.1% "SEQLENE 540"                                                                          2    66      3.62                                                                              862.37 -3138.26                                                                              1849        2482                    0.1% "SEQLENE 540"                                                                          4    66      1.4                                                                               1680.75                                                                               -2407.00                                                                              3166        3990                    0.1% "SEQLENE 540".sup.2)                                                                   6    68   .sup.3) 60:1                                                                      0.77                                                                              1708.88                                                                               -1369.30                                                                              3670        4522                    0.1% Sodium Gluconate                                                                       0    90      57.72                                                                             55.19  -3173.07                                                                              808         1478                    0.1% Sodium Gluconate                                                                       1    90      6.88                                                                              460.20 -3172.23                                                                              1435        2008                    0.1% Sodium Gluconate                                                                       2    90      3.77                                                                              792.32 -3018.93                                                                              1873        2655                    0.1% Sodium Gluconate                                                                       4    90      1.95                                                                              1239.75                                                                               -2429.60                                                                              2993        3936                    0.1% Sodium Gluconate                                                                       6    90   .sup.3) 60:1                                                                      1.23                                                                              1618.88                                                                               -2000.70                                                                              3607        4565                    0.33% Sodium Gluconate                                                                      0    43      -- --     --     --          --                      0.33% Sodium Gluconate                                                                      1    43      24.5                                                                              147.93 -3633.58                                                                              2540        2805                    0.33% Sodium Gluconate                                                                      2    43      17.23                                                                             197.88 -3398.37                                                                              2919        3483                    0.33% Sodium Gluconate                                                                      4    43   .sup.3) 12.1                                                                      8.9                                                                               344.25 -3079.35                                                                              3858        4547                    0.33% Sodium Gluconate                                                                      6    43   .sup.3) 18.2                                                                      6.05                                                                              633.48 -3844.71                                                                              4050        4710                    0.33% Sodium Gluconate                                                                      8    43   .sup.3) 24.2                                                                      3.73                                                                              1468.02                                                                               -5457.53                                                                              3412        4148                    __________________________________________________________________________      .sup.1) "REAX" is sulfonated Kraft lignin                                      .sup.2) "SEQLENE 540" is sodium glucohepatonate                                .sup.3) Activator:Retarder ratio                                         

FIG. 8 shows sodium oxalate as giving similar benefits as sodium citrate.

FIGS. 9 and 10 show comparison of the combination of citrate with phosphate and citrate, phosphate and sodium hydroxide. (Sodium hydroxide can reduce set time.)

Other activators were tried and the effect of component ratios is clearly distinguishable in FIGS. 11 and 12.

Tables 9 through 12 show that ratio for set time, early compressive strength development rate and final strength varies with retarder strength, temperature and activator strength.

                                      TABLE 10                                     __________________________________________________________________________     Base Slurry: "NEWCEM" Blast Furnace Slag + 0.1% Sodium Gluconate (bwos*)       + 50% Distilled Water (bwos)                                                   Test Temperature: 125° F.                                               __________________________________________________________________________                  No   0.10%                                                                               0.20%                                                                               0.40%                                                                               0.80%                                                                               1%   1.20%                                                                               1.40%                                                                               1.60%                                                                               1.80%                             Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator            __________________________________________________________________________     Time to 50 psi              33.93                                                                               18.1 16   12   11.55                                                                               9.72 737                  Time to 500 psi             43.97                                                                               20.63                                                                               17.9 13.55                                                                               12.93                                                                               10.9 8.43                 Time from 50 psi to 500 psi 10.04                                                                               2.53 1.9  1.55 1.38 1.18 1.06                 Activator:Retarder Ratio    4:1  8:1  10:1 12:1 14:1 16:1 18:1                 __________________________________________________________________________                  2%   2.20%                                                                               2.40%                                                                               2.60%                                                                               2.80%                                                                               3%   4%   5%   6%   7%                                Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator            __________________________________________________________________________     Time to 50 psi                                                                              6.08 5.38 5.27 5.2  5.17 4.43 3.1  0.93 1.78 1.15                 Time to 500 psi                                                                             6.82 6.03 5.97 5.87 5.8  5    3.58 1.28 2.1  1.4                  500 psi      0.74                                                              Time from 50 psi to 500 psi                                                                 0.74 0.65 0.7  0.67 0.63 0.57 0.48 0.35 0.32 0.25                 Activator:Retarder Ratio                                                                    20:1 22:1 24:1 26:1 28:1 30:1 40:1 50:1 60:1 70:1                 __________________________________________________________________________      *bwos = by weight of slag                                                

                                      TABLE 11                                     __________________________________________________________________________     Base Slurry: "NEWCEM" Blast Furnace + 0.1% Sodium Gluconate + 50%              Distilled Water (bwos)                                                         Test Temperature: 150° F.                                               __________________________________________________________________________                  No   0.10%                                                                               0.20%                                                                               0.40%                                                                               0.80%                                                                               1%   1.20%                                                                               1.40%                                                                               1.60%                                                                               1.80%                             Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator            __________________________________________________________________________     Time to 50 psi                                                                              43.15                                                                               22.52                                                                               15.7 9.68 4.98 4.53 4.2  4    2.95 2.27                 Time to 500 psi                                                                             53.37                                                                               28.9 20.35                                                                               12.62                                                                               6    5.58 5.28 4.83 3.57 2.63                 Time from 50 psi to 500 psi                                                                 10.22                                                                               6.38 4.65 2.94 1.02 1.05 1.08 0.83 0.62 0.36                 Activator:Retarder Ratio                                                                    0    1:1  2:1  4:1  8:1  10:1 12:1 14:1 16:1 18:1                 __________________________________________________________________________                  2%   2.20%                                                                               2.40%                                                                               2.60%                                                                               2.80%                                                                               3%   4%   5%   6%   7%                                Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator            __________________________________________________________________________     Time to 50 psi                                                                              2.23 2    2.1  1.82 1.43 1.5  1.2  1.02 1    0.97                 Time to 500 psi                                                                             2.68 2.38 2.45 2.2  1.62 1.75 1.45 1.15 1.15 1.12                 Time from 50 psi to 500 psi                                                                 0.45 0.38 0.35 0.38 0.19 0.25 0.25 0.13 0.15 0.15                 Activator:Retarder Ratio                                                                    20:1 22:1 24:1 26:1 28:1 30:1 40:1 50:1 60:1 70:1                 __________________________________________________________________________      *bwos = by weight of slag                                                

                                      TABLE 12                                     __________________________________________________________________________     Base Slurry: "NEWCEM" Blast Furnace Slag + 0.1% Sodium Gluconate +             Distilled Water (bwos)                                                         Test Temperature: 175° F.                                               __________________________________________________________________________                  No   0.10%                                                                               0.20%                                                                               0.40%                                                                               0.80%                                                                               1%   1.20%                                                                               1.40%                                                                               1.60%                                                                               1.80%                             Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator            __________________________________________________________________________     Time to 50 psi                                                                              17.95                                                                               10.3 7.37 4.17 2.58 2.1  1.87 1.38 1.48 1.4                  Time to 500 psi                                                                             22.27                                                                               15.12                                                                               9.57 5.68 3.45 2.72 2.38 1.68 1.78 1.73                 Time from 50 psi to 500 psi                                                                 4.32 4.82 2.2  1.51 0.87 0.62 0.51 0.3  0.3  0.33                 Activator:Retarder Ratio                                                                    0    1:1  2:1  4:1  8:1  10:1 12:1 14:1 16:1 18:1                 __________________________________________________________________________                  2%   2.20%                                                                               2.40%                                                                               2.60%                                                                               2.80%                                                                               3%   4%   5%   6%   7%                                Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator                                                                           Activator            __________________________________________________________________________     Time to 50 psi                                                                              1.05 1.17 1.03 1.15 1.22 0.73 0.6  0.62 0.62 0.72                 Time to 500 psi                                                                             1.22 1.37 1.27 1.33 1.4  0.83 0.73 0.75 0.7  0.83                 Time from 50 psi to 500 psi                                                                 0.17 0.2  0.24 0.18 0.18 0.1  0.13 0.13 0.08 0.11                 Activator:Retarder Ratio                                                                    20:1 22:1 24:1 26:1 28:1 30:1 40:1 50:1 60:1 70:1                 __________________________________________________________________________      *bwos = by weight of slag                                                 

What is claimed is:
 1. A method for cementing a well, comprising:combining constituents comprising water, blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g, and an activator comprising a phosphate ion-containing compound, to form a cement slurry; displacing the cement slurry into the well; and allowing the cement slurry to set.
 2. The method of claim 1 wherein the activator includes an oxalate ion-containing compound.
 3. The method of claim 1 wherein the activator includes a citrate ion-containing compound.
 4. The method of claim 3 wherein the citrate ion-containing compound is selected from the group consisting of sodium citrate, calcium citrate and potassium citrate.
 5. The method of claim 1 wherein the weight ratio of activator to slag is adjusted to achieve optimum compressive strength of the cement.
 6. The method of claim 5 wherein the weight ratio of activator to slag is further adjusted in accordance with well temperature to achieve optimum compressive strength of the cement.
 7. The method of claim 3 wherein the ratio of activator components is adjusted to provide at least one of the following: (a) optimum set time of the cement slurry, (b) optimum compressive strength of the cement, (c) optimum early compressive strength development rate of the cement slurry, and (d) optimum rheological properties for the cement slurry.
 8. The method of claim 3 wherein the weight ratio of activator to slag is adjusted to achieve optimum compressive strength of the cement.
 9. The method of claim 8 wherein the weight ratio of activator to slag is further adjusted in accordance with well temperature to achieve optimum compressive strength of the cement.
 10. The method of claim 5 wherein the activator includes multiple components and wherein the ratio of activator components is adjusted to provide at least one of the following: (a) optimum set time of the cement slurry, (b) optimum compressive strength of the cement, (c) optimum early compressive strength development rate of the cement slurry, and (d) optimum rheological properties for the cement slurry.
 11. The method of claim 6 wherein the activator includes multiple components and the ratio of activator components is adjusted to provide at least one of the following: (a) optimum set time of the cement slurry, (b) optimum compressive strength of the cement, (c) optimum early compressive strength development rate of the cement slurry, and (d) optimum rheological properties for the cement slurry.
 12. The method of claim 1 including adding a retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well.
 13. The method of claim 12 wherein the retarder is a salt of a transition metal with an atomic number above iron in the periodic chart.
 14. The method of claim 13 wherein the retarder is a copper, zinc or aluminum salt.
 15. The method of claim 12 wherein the retarder is a complexing agent.
 16. The method of claim 15 wherein the retarder is a lignosulfonate, sulfonated lignin, or lignin amine.
 17. The method of claim 15 wherein the retarder is sodium glucoheptonate, sodium gluconate or sodium citrate.
 18. The method of claim 12 wherein a ratio of weight of activator to weight of retarder is selected to provide the greatest early compressive strength development and the greatest final strength for a given slag concentration.
 19. The method of claim 18 wherein the activator/retarder weight ratio is selected at the static temperature of the well to provide substantially the greatest early compressive strength development and substantially the greatest final strength for a given slag concentration.
 20. The method of claim 18 wherein the activator/retarder ratio is selected for a set time of less than about ten hours.
 21. The method of claim 18 wherein the activator/retarder ratio is selected for a set time of less than about eight hours.
 22. The method of claim 18 wherein the activator/retarder ratio is selected for a set time of between three and six hours.
 23. The method of claim 3 including adding a retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well.
 24. The method of claim 23 wherein the retarder is a salt of a transition metal with an atomic number above iron in the periodic chart.
 25. The method of claim 24 wherein the retarder is a copper, zinc or aluminum salt.
 26. The method of claim 23 wherein the retarder is a complexing agent.
 27. The method of claim 26 wherein the retarder is a lignosulfonate, sulfonated lignin, or lignin amine.
 28. The method of claim 26 wherein the retarder is sodium glucoheptonate, sodium gluconate or sodium citrate.
 29. The method of claim 23 wherein a ratio of weight of activator to weight of retarder is selected to provide the greatest early compressive strength development and the greatest final strength for a given slag concentration.
 30. The method of claim 29 wherein the activator/retarder weight ratio is selected at the static temperature of the well to provide substantially the greatest early compressive strength development and substantially the greatest final strength for a given slag concentration.
 31. The method of claim 29 wherein the activator/retarder ratio is selected for a set time of less than about ten hours.
 32. The method of claim 29 wherein the activator/retarder ratio is selected for a set time of less than about eight hours.
 33. The method of claim 29 wherein the activator/retarder ratio is selected for a set time of between three and six hours.
 34. The method of claim 1 including adding a drilling fluid to the cement slurry.
 35. The method of claim 5 including adding a retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well.
 36. The method of claim 35 wherein the retarder is a salt of a transition metal with an atomic number above iron in the periodic chart.
 37. The method of claim 36 wherein the retarder is a copper, zinc or aluminum salt.
 38. The method of claim 35 wherein the retarder is a complexing agent.
 39. The method of claim 38 wherein the retarder is a lignosulfonate, sulfonated lignin, or lignin amine.
 40. The method of claim 38 wherein the retarder is sodium glucoheptonate, sodium gluconate or sodium citrate.
 41. The method of claim 35 wherein a ratio of weight of activator to weight of retarder is selected to provide the greatest early compressive strength development and the greatest final strength for a given slag concentration.
 42. The method of claim 41 wherein the activator/retarder weight ratio is selected at the static temperature of the well to provide substantially the greatest early compressive strength development and substantially the greatest final strength for a given slag concentration.
 43. The method of claim 41 wherein the activator/retarder ratio is selected for a set time of less than about ten hours.
 44. The method of claim 41 wherein the activator/retarder ratio is selected for a set time of less than about eight hours.
 45. The method of claim 41 wherein the activator/retarder ratio is selected for a set time of between three and six hours.
 46. The method of claim 41 including adding a drilling fluid to the slurry.
 47. The method of claim 7 including adding a retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well.
 48. The method of claim 47 wherein the retarder is a salt of a transition metal with an atomic number above iron in the periodic chart.
 49. The method of claim 48 wherein the retarder is a copper, zinc or aluminum salt.
 50. The method of claim 47 wherein the retarder is a complexing agent.
 51. The method of claim 50 wherein the retarder is a lignosulfonate, sulfonated lignin, or lignin amine.
 52. The method of claim 51 wherein the retarder is sodium glucoheptonate, sodium gluconate or sodium citrate.
 53. The method of claim 47 wherein a ratio of weight of activator to weight of retarder is selected to provide the greatest early compressive strength development and the greatest final strength for a given slag concentration.
 54. The method of claim 53 wherein the activator/retarder weight ratio is selected at the static temperature of the well to provide substantially the greatest early compressive strength development and substantially the greatest final strength for a given slag concentration.
 55. The method of claim 53 wherein the activator/retarder ratio is selected for a set time of less than about ten hours.
 56. The method of claim 53 wherein the activator/retarder ratio is selected for a set time of less than about eight hours.
 57. The method of claim 53 wherein the activator/retarder ratio is selected for a set time of between three and six hours.
 58. The method of claim 53 including adding a drilling fluid to the slurry.
 59. The method of claim 1 including selecting an activator which also functions as a good dispersing agent, whereby dispersion will favor better compressive strength development after setting of the cement slurry.
 60. The method of claim 1 including adding a sulfide scavenging compound to the cement slurry, said scavenging compound being selected from the group consisting of zinc oxide and zinc carbonate.
 61. A method for cementing a well, comprising:combining constituents comprising water, a blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g, and an activator to form a cement slurry; adjusting the weight ratio of activator-to-slag to achieve optimum compressive strength of the cement; displacing the cement slurry into the well; and allowing the cement slurry to set.
 62. The method of claim 61 wherein the weight ratio of activator to slag is further adjusted in accordance with well temperature to achieve optimum compressive strength of the cement.
 63. The method of claim 61 including at least two activator components and wherein the ratio of activator components is adjusted to provide at least one of the following: (a) optimum set time of the cement slurry, (b) optimum compressive strength of the cement, (c) optimum early compressive strength development rate of the cement slurry, and (d) optimum rheological properties for the cement slurry.
 64. The method of claim 61 including adding a retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well.
 65. The method of claim 64 wherein the retarder is a salt of a transition metal with an atomic number above iron in the periodic chart.
 66. The method of claim 65 wherein the retarder is a copper, zinc or aluminum salt.
 67. The method of claim 66 wherein the retarder is a complexing agent.
 68. The method of claim 61 wherein the retarder is a lignosulfonate, sulfonated lignin, or lignin amine.
 69. The method of claim 64 wherein the retarder is sodium glucoheptonate, sodium gluconate or sodium citrate.
 70. The method of claim 64 wherein a ratio of weight of activator to weight of retarder is selected to provide the greatest early compressive strength development and the greatest final strength for a given slag concentration.
 71. The method of claim 70 wherein the activator/retarder weight ratio is selected at the static temperature of the well to provide substantially the greatest early compressive strength development and substantially the greatest final strength for a given slag concentration.
 72. The method of claim 70 wherein the activator/retarder ratio is selected for a set time of less than about eight hours.
 73. The method of claim 70 wherein the activator/retarder ratio is selected for a set time of less than about six hours.
 74. The method of claim 61 including a retarder which is a lignosulfonate, sulfonated lignin, or lignin amine.
 75. The method of claim 61 including adding a sulfide scavenging compound to the cement slurry, said scavenging compound being selected from the group consisting of zinc oxide and zinc carbonate.
 76. A method for cementing a well, comprising:combining constituents comprising water, blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g, and a multi-component activator to form a cement slurry; adjusting the ratio of activator components to provide at least one of the following: (a) optimum set time of the cement slurry, (b) optimum compressive strength of the cement, (c) optimum early compressive strength development ratio of the cement slurry, and (d) optimum rheological properties for the cement slurry; displacing the cement slurry into the well; and allowing the cement slurry to set.
 77. The method of claim 76 including adding a retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well.
 78. The method of claim 77 wherein the retarder is a salt of a transition metal with an atomic number above iron in the periodic chart.
 79. The method of claim 77 wherein the retarder is a copper, zinc or aluminum salt.
 80. The method of claim 77 wherein the retarder is a complexing agent.
 81. The method of claim 80 wherein the retarder is a lignosulfonate, sulfonated lignin, or lignin amine.
 82. The method of claim 76 wherein the retarder is sodium glucoheptonate, sodium gluconate or sodium citrate.
 83. The method of claim 76 wherein a ratio of weight of activator to weight of retarder is selected to provide the greatest early compressive strength development and the greatest final strength for a given slag concentration.
 84. The method of claim 83 wherein the activator/retarder weight ratio is selected at the static temperature of the well to provide substantially the greatest early compressive strength development and substantially the greatest final strength for a given slag concentration.
 85. The method of claim 83 wherein the activator/retarder ratio is selected for a set time of less than about ten hours.
 86. The method of claim 83 wherein the activator/retarder ratio is selected for a set time of less than about eight hours.
 87. The method of claim 83 wherein the activator/retarder ratio is selected for a set time of between three and six hours.
 88. The method of claim 76 including selecting an activator which also functions as a good dispersing agent, whereby dispersion will favor better compressive strength development after setting of the cement slurry.
 89. The method of claim 76 including adding a sulfide scavenging compound to the cement slurry, said scavenging compound being selected from the group consisting of zinc oxide and zinc carbonate.
 90. A method for cementing a well, comprising:combining constituents comprising water, blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g, an activator, and sufficient retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well; selecting a ratio of weight of activator to weight of retarder to provide the greatest early compressive strength development and the greatest final strength for a given slag concentration; displacing the cement slurry into the well; and allowing the cement slurry to set.
 91. The method of claim 90 wherein the retarder is a salt of a transition metal with an atomic number above iron in the periodic chart.
 92. The method of claim 91 wherein the retarder is a copper, zinc or aluminum salt.
 93. The method of claim 90 wherein the retarder is a complexing agent.
 94. The method of claim 93 wherein the retarder is a lignosulfonate, sulfonated lignin, or lignin amine.
 95. The method of claim 90 wherein the retarder is sodium glucoheptonate, sodium gluconate or sodium citrate.
 96. The method of claim 90 wherein the activator/retarder weight ratio is selected at the static temperature of the well to provide substantially the greatest early compressive strength development and substantially the greatest final strength for a given slag concentration.
 97. The method of claim 90 wherein the activator/retarder ratio is selected for a set time of less than about ten hours.
 98. The method of claim 90 wherein the activator/retarder ratio is selected for a set time of less than about eight hours.
 99. The method of claim 90 wherein the activator/retarder ratio is selected for a set time of between three and six hours.
 100. The method of claim 90 including selecting an activator which also functions as a good dispersing agent, whereby dispersion will favor better compressive strength development after setting of the cement slurry.
 101. The method of claim 90 including adding a sulfide scavenging compound to the cement slurry, said scavenging compound being selected from the group consisting of zinc oxide and zinc carbonate.
 102. A method for cementing a well, comprising:combining constituents comprising water, blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g, an activator, and sufficient retarder to provide adequate fluidity time of the cement slurry in order to place the cement in the well; selecting the activator/retarder weight ratio at the static temperature of the well to provide substantially the greatest early compressive strength development and substantially the greatest final strength for a given slag concentration; displacing the cement slurry into the well; and allowing the cement slurry to set.
 103. The method of claim 102 wherein the activator/retarder ratio is selected for a set time of less than about ten hours.
 104. The method of claim 102 wherein the activator/retarder ratio is selected for a set time of less than about eight hours.
 105. The method of claim 102 wherein the activator/retarder ratio is selected for a set time of between three and six hours.
 106. The method of claim 102 including selecting an activator which also functions as a good dispersing agent, whereby dispersion will favor better compressive strength development after setting of the cement slurry.
 107. The method of claim 102 including adding a sulfide scavenging compound to the cement slurry, said scavenging compound being selected from the group consisting of zinc oxide and zinc carbonate.
 108. A method for cementing a well, comprising:combining constituents comprising water, blast furnace slag having a particle size within the range of 2,000 to 15,000 cm² /g and an activator to form a cement slurry; adding a sulfide scavenging compound to the cement slurry, said scavenging compound being selected from the group consisting of zinc oxide and zinc carbonate; displacing the cement slurry into the well; and allowing the cement slurry to set.
 109. A method for cementing a well, comprising:combining constituents comprising water, blast furnace slag, and an activator comprising an oxalate ion-containing compound, to form a slurry; adjusting the weight ratio of activator to slag to control contribution of the activator to compressive strength development of the slurry; displacing the cement slurry into the well; and allowing the cement slurry to set.
 110. A method for cementing a well, comprising:combining constituents comprising water, blast furnace slag, and an activator comprising a citrate ion-containing compound, to form a slurry; adjusting the weight ratio of activator to slag to control contribution of the activator to compressive strength development of the slurry; displacing the cement slurry into the well; and allowing the cement slurry to set.
 111. A method for cementing a well, comprising:selecting an optimum amount of a multi-component activator which provides the maximum compressive strength for a given concentration of slag and adjusting the ratio of components depending upon the temperature of the well; selecting the ratio of components in the total activator to provide optimum set time or optimum compressive strength or optimum early compressive strength development rate or optimum rheological properties, or a combination thereof; and selecting a retarder which will provide adequate fluidity time in order to place tile cement slurry in the well; displacing the cement slurry into the well; and allowing the cement slurry to set.
 112. A method for cementing a well, comprising:determining more than one slag cement formulation with at least one of the following: (1) optimized ratios of slag and activators, (2) optimized activator components and (3) optimized activator/retarder ratios; determining which of the formulations is the better dispersed, that formulation generally having better strength development after setting; and using the better dispersed cement formulation for cementing the well.
 113. A method for cementing a well, comprising:combining constituents comprising water, blast furnace slag and an activator, to form a slurry; controlling total activator concentration to optimize the rate of early compressive strength development of the cement; displacing the cement slurry into the well; and allowing the cement slurry to set.
 114. A method for cementing a well, comprising:combining constituents comprising water, blast furnace slag and an activator, to form a slurry; controlling total activator concentration to optimize final compressive strength; displacing the cement slurry into the well; and allowing the cement slurry to set. 